Lithium‐Ion Batteries: Countering Voltage Decay and Capacity Fading of Lithium‐Rich Cathode Material at 60 °C by Hybrid Surface Protection Layers (Adv. Energy Mater. 13/2015)
Lithium‐Ion Batteries: Countering Voltage Decay and Capacity Fading of Lithium‐Rich Cathode...
Liu, Wen; Oh, Pilgun; Liu, Xien; Myeong, Seungjun; Cho, Woongrae; Cho, Jaephil
2015-07-01 00:00:00
In article number 1500274, Jaephil Cho and co‐workers report a novel, hybrid surface protection layer on a Li‐rich cathode material for lithium ion batteries. The spherical particles are secondary particles composed of small primary particles, and they are reinforced with hybrid surface treatment of Mg2+ pillars and a Li‐Mg‐PO4 layer. The strategy developed provides a way to inhibit unwanted side reactions and structural deterioration of Li‐rich cathode materials, thus allowing for increased cycling stability at elevated temperature.
http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.pngAdvanced Energy MaterialsWileyhttp://www.deepdyve.com/lp/wiley/lithium-ion-batteries-countering-voltage-decay-and-capacity-fading-of-0hRsAsAEEO
Lithium‐Ion Batteries: Countering Voltage Decay and Capacity Fading of Lithium‐Rich Cathode Material at 60 °C by Hybrid Surface Protection Layers (Adv. Energy Mater. 13/2015)
In article number 1500274, Jaephil Cho and co‐workers report a novel, hybrid surface protection layer on a Li‐rich cathode material for lithium ion batteries. The spherical particles are secondary particles composed of small primary particles, and they are reinforced with hybrid surface treatment of Mg2+ pillars and a Li‐Mg‐PO4 layer. The strategy developed provides a way to inhibit unwanted side reactions and structural deterioration of Li‐rich cathode materials, thus allowing for increased cycling stability at elevated temperature.
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